Oviposition site influences dispersal potential in a marine bubble snail

Abstract

For benthic marine invertebrates that deposit offspring inside protective capsules or gelatinous egg masses, small-scale variation in environmental parameters can affect offspring mortality, performance, timing of hatching and dispersal potential. Plasticity in hatching and dispersal potential have received less attention than egg mass mortality and juvenile performance, but there may be adaptive responses that balance the costs and benefits of benthic and pelagic development in specific contexts, such as escaping poor environments. Some species, such as the bubble snail Haminoea japonica, produce two offspring phenotypes at hatching that differ in dispersal potential. Here, I investigated whether the substrata that egg masses develop on can influence whether offspring tended to hatch as either phenotype. In the field, egg masses were more commonly deposited in association with filamentous algae and in laboratory experiments, free-swimming larvae settled and metamorphosed more readily on algae. When egg masses developed on the algae that induced settlement, there were more crawl-away juveniles than free-swimming larvae. Such a response has important consequences for dispersal potential, hence the deposition substratum may have an adaptive value because crawl-away juveniles can avoid a potentially risky planktonic period when settlement substratum is present, but larvae can disperse when a suitable settlement substratum is absent.

Key words:

• Deposition
• egg mass
• Haminoea
• marine invertebrate
• maternal effect

Acknowledgements

Thanks to three anonymous reviewers, Richard Strathmann, Richard Emlet, Karen Chan, Dustin Marshall, Patrick Krug and Keyne Monro for helpful comments on earlier versions of the manuscript. Thanks to R. Strathmann, R. Emlet, Daniel Fernandes and Robert Podolsky for help designing and discussing this project, as well as Paul Gabrielson for help with algae identification and Samantha Smoot, K. Chan and D. Fernandes for help in the field.

Funding

Thanks to Barbara and George Von Gehr for financial support through the Friday Harbor Labs student support program. This project was additionally funded by The University of Queensland Graduate School Research Travel Grant and Australian Postgraduate Award.

Editorial responsibility: Christiane Todt

Additional information

Funding

Funding: Thanks to Barbara and George Von Gehr for financial support through the Friday Harbor Labs student support program. This project was additionally funded by The University of Queensland Graduate School Research Travel Grant and Australian Postgraduate Award.